Add to ORKGABSTRACT: Covalent bonds can be generated within and between proteins by an unnatural amino acid (Uaa) reacting with a natural residue through proximity-enabled bioreactivity. Until now, Uaas have been developed to react mainly with cysteine in proteins. Here we genetically encoded an electrophilic Uaa capable of reacting with histidine and lysine, thereby expanding the diversity of target proteins and the scope of the proximity-enabled protein cross-linking technol-ogy. In addition to efficient cross-linking of proteins inter- and intramolecularly, this Uaa permits direct stapling of a protein α-helix in a recombinant manner and covalent binding of native membrane receptors in live cells. The target diversity, recombinant stapling, and cov...
The introduction of new covalent bonds into proteins is affording novel avenues for protein research...
Chemical modification of proteins has proved to be an essential tool in engineering proteins for bas...
Chemical reactivity is essential for functional modification of biomolecules with small molecules an...
Covalent bonds can be generated within and between proteins by an unnatural amino acid (Uaa) reactin...
© 2014 American Chemical Society.Covalent bonds can be generated within and between proteins by an u...
The selective generation of covalent bonds between and within proteins would provide new avenues for...
The genetic code can be expanded to include unnatural amino acids (Uaas) by engineering orthogonal c...
To expand protein's covalent bonding ability, latent bioreactive unnatural amino acids have been des...
ABSTRACT: Selective covalent bond formation at a protein− protein interface potentially can be achie...
The study of protein-protein interactions in essential to our understanding of cell biology and our ...
Natural proteins often rely on the disulfide bond to covalently link side chains. Here we geneticall...
Targeted covalent inhibitors have had a major impact on human health and disease. In the past decade...
Selective covalent bond formation at a protein–protein interface potentially can be achieved by gene...
Introducing new chemical reactivity into proteins in living cells would endow innovative covalent bo...
Conjugation reactions on proteins have been used to access various post-translational modifications,...
The introduction of new covalent bonds into proteins is affording novel avenues for protein research...
Chemical modification of proteins has proved to be an essential tool in engineering proteins for bas...
Chemical reactivity is essential for functional modification of biomolecules with small molecules an...
Covalent bonds can be generated within and between proteins by an unnatural amino acid (Uaa) reactin...
© 2014 American Chemical Society.Covalent bonds can be generated within and between proteins by an u...
The selective generation of covalent bonds between and within proteins would provide new avenues for...
The genetic code can be expanded to include unnatural amino acids (Uaas) by engineering orthogonal c...
To expand protein's covalent bonding ability, latent bioreactive unnatural amino acids have been des...
ABSTRACT: Selective covalent bond formation at a protein− protein interface potentially can be achie...
The study of protein-protein interactions in essential to our understanding of cell biology and our ...
Natural proteins often rely on the disulfide bond to covalently link side chains. Here we geneticall...
Targeted covalent inhibitors have had a major impact on human health and disease. In the past decade...
Selective covalent bond formation at a protein–protein interface potentially can be achieved by gene...
Introducing new chemical reactivity into proteins in living cells would endow innovative covalent bo...
Conjugation reactions on proteins have been used to access various post-translational modifications,...
The introduction of new covalent bonds into proteins is affording novel avenues for protein research...
Chemical modification of proteins has proved to be an essential tool in engineering proteins for bas...
Chemical reactivity is essential for functional modification of biomolecules with small molecules an...